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ChemistryChemistry
10 September, 08:24

Determine the volume of 1.00 mole of a gas under the following conditions:

T = 273 K, P = 2.00 atm:

V =

L

T = 546 K, P = 1.00 atm:

V =

L

T = 409.5 K, P = 1.50 atm:

V =

L

+2
Answers (1)
  1. 10 September, 11:26
    0
    T = 273 K, P = 2.00 atm: V = 11.2 L

    T = 546 K, P = 1.00 atm: V = 44.8 L

    T = 409.5 K, P = 1.50 atm: V = 22.4 L

    The ideal gas law is:

    PV = nRT

    where

    P = pressure

    V = volume

    n = number of moles

    R = ideal gas constant

    T = absolute temperature

    There's a lot of different values for R depending upon the units involved.

    Given that we're using liters and atm, the constant I'll use is 0.082057338

    L*atm / (K*mol)

    Let's solve for volume

    PV = nRT

    V = nRT/P

    Let's substitute the known values for n and R.

    V = nRT/P

    V = 1.00 mol * 0.082057338 L*atm / (K*mol) * T/P

    V = 0.082057338 L*atm/K * T/P

    Now simply substitute the given values and calculate. I'll do the full calculation for the 1st problem, and then simply give the answers for the remaining 2 problems.

    T = 273 K, P = 2.00 atm: V = 11.2 L

    V = 0.082057338 L*atm/K * T/P

    V = 0.082057338 L*atm/K * 273 K/2.00 atm

    V = 22.40165327 L*atm / 2.00 atm

    V = 11.20082664 L

    Rounding to 3 significant figures gives 11.2 L.

    T = 546 K, P = 1.00 atm: V = 44.8 L

    T = 409.5 K, P = 1.50 atm: V = 22.4 L
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Home » Chemistry » Determine the volume of 1.00 mole of a gas under the following conditions: T = 273 K, P = 2.00 atm: V = L T = 546 K, P = 1.00 atm: V = L T = 409.5 K, P = 1.50 atm: V = L
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